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"The main objective of this book is to provide a multidisciplinary overview of methodological approaches, architectures, platforms, and algorithms for the realization of an Internet of Things (IoT)-based Smart Urban Ecosystem (SUE). Moreover, the book details a set of real-world applications and case studies related to specific smart infrastructures and smart cities, including structural health monitoring, smart urban drainage networks, smart grids, power efficiency, healthcare, city security, and emergency management.A Smart Urban Ecosystem (SUE) is a people-centric system of systems that involves smart city environments, applications, and infrastructures. SUEs require the close integration of cyber and physical components for monitoring, understanding and controlling the urban environment. In this context, the Internet of Things (IoT) offers a valuable enabling technology, as it bridges the gap between physical things and software components, and empowers cooperation between distributed, pervasive, and heterogeneous entities."

"This book introduces readers to all the necessary components and knowledge to start being a vital part of the IoT revolution. The author discusses how to create smart-IoT solutions to help solve a variety of real problems. Coverage includes the most important aspects of IoT architecture, the various applications of IoT, and the enabling technologies for IoT. This book presents key IoT concepts and abstractions, while showcasing real case studies. The discussion also includes an analysis of IoT strengths, weaknesses, opportunities and threats. Readers will benefit from the in-depth introduction to internet of things concepts, along with discussion of IoT algorithms and architectures tradeoffs. Case studies include smart homes, smart agriculture, and smart automotive.- Provides readers with a comprehensive overview of IoT;- Includes discussion of IoT algorithms and architectures tradeoffs;- Uses real, industrial applications/case-studies to demonstrate concepts introduced."

"AEC (Asean Economic Community) 2015 menimbulkan beberapa tantangan dalam industri logistik. Oleh karenanya diperlukan peranan dan penerapan layanan IoT (Internet of Things) untuk meningkatkan daya saing, yaitu berupa implementasi layanan smart logistic transport. Tesis ini mengusulkan model implementasi smart logistic transport di Indonesia yang berfokus pada sistem cold supply chain.Tesis ini bertujuan melakukan analisis ekonomi teknik dalam bentuk analisis komparatif layanan smart logistic transport terkait pemilihan teknologi jaringan 2G/3G/4G dan fitur MDVR yang dibedakan menjadi Skenario 1-2-3. Sedangkan pengembangan model implementasi didapatkan setelah melakukan wawancara dengan application customers,technological vendors,regulator & network provider.Berdasarkan trial implementasi smart logistic transport bulan September-Oktober 2015 dengan analisis ekonomi teknik, didapatkan layanan not feasible hanya pada skenario 3 untuk unit "CD6", di jaringan 4G. Hal ini terkait masih mahal dan belum banyak tersedianya modul m2m gateway dan MDVR teknologi jaringan 4G. Sehingga diperlukan jumlah minimum truk "CD6" dan "Fuso" pada tiap skenario agar implementasi menjadi feasible. Untuk model implementasi layanan terdiri atas 11 fitur, yaitu 2 fitur basic dan 9 fitur ad.

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Asean Economic Community 2015 has been creating more challenges in logistics industries in Indonesia. The implementation of IoT in logistic services is needed for increasing competitiveness leading to the establishment of so-called "smart logistic transport". We propose the implementation model of the Indonesian Smart Logistic Transport, by focusing on cold supply chain system.

We have conducted an engineering economic analysis of the smart logistics transport, in relation with the mobile network platform of 2G, 3G, 4G. Development of the implementation model is completed by conducting in-depth interviews with the application customers, technological vendors, regulator and network provider. Based on implementation trial in September-October 2015 and engineering economic analysis, we have found that Smart Logistic Transport is not feasible only on scenario 3 for "CD6" at 4G network. Such condition is caused by the expensive price of 4G’s M2M gateway module and MDVR.

Therefore, it requires the minimum amount of implemented truck to make implementation feasible. Our proposed model has signified 11 features, i.e. 2 basic feature and 9 advanced features, formulating the Indonesian smart logistics transport system. Due to the dynamic business process, customers may need specific advanced features in the future. By taking such opportunity, Indonesian local content developer can work to develop any relevant application features, which is needed by the logistic companies in the near future."

"Perkembangan teknologi informasi saat ini terus berkembang. Salah satu contoh bentuk perkembangan dari teknologi informasi yaitu Internet of Things (IoT). Melalui perangkat teknologi yang terkoneksi ke internet akan memudahkan kita untuk mengumpulkan informasi dari sensor dan mengendalikannya kapanpun dan dimanapun kita berada. Dalam penelitian ini dibuat sebuah sistem kWh Meter yang terkoneksi dengan telepon genggam android melalui IoT. Desain komponen elektronik menggunakan mikrokontroler NodeMCU, sensor energi listrik PZEM-004t dan display LCD 16x2 yang menjadi komponen utama. Sistem kWh Meter akan mengirimkan dan menerima data dari server. Server yang digunakan yaitu Google Firebase. Aplikasi android dibuat sebagai antarmuka dari pengguna ke kWh Meter. Dengan aplikasi android pengguna dapat mengetahui biaya energi yang dipakai secara real time. Pengguna juga dapat memutuskan energi listrik melalui rangkaian relay. Pengujian yang dilakukan pada penelitian ini yaitu pengujian perbandingan dengan kWh Meter komersial dengan hasil nilai kesalahan rata-rata pembacaan energi selama waktu satu jam sebesar 6.06 %, 1.52% pada kesalahan daya, 0.81% pada kesalahan tegangan, 3.14% pada kesalahan arus, pengujian delay sistem relay, dan notifikasi pada aplikasi android.

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The development of information technology today is continues to grow. One of implementation from this technology information is the Internet of Things (IoT). In terms of collecting the information from the sensors and controlling, the implementation of technology devices will be easier through internet connection. In this study, a kWh Meter system was designed that connected with Android applications through IoT. The Server which used was Google Firebase. The electronic components were used: NodeMCU microcontroller, the PZEM-004t electrical energy sensor and the 16x2 LCD display. The kWh Meter system would send and receive data from the server. The Android app was created as the user interface to the kWh Meter. Users were possible to know the cost of energy consumption in real time through Android app. Besides, users could disconnect electrical energy through the relay circuit. In this study, there were several test which conducted, for example: the comparisons between commercial kWh meters with result value of error reading energi 6.06%, error reading power 1.52%, error reading voltage 0.18%, error reading current 3.14%, then test the delay of relay system, and the notifications on Android application."

"This book introduces the concept of smart city as the potential solution to the challenges created by urbanization. The Internet of Things (IoT) offers novel features with minimum human intervention in smart cities. This book describes different components of Internet of Things (IoT) for smart cities including sensor technologies, communication technologies, big data analytics and security."

"Peningkatan trafik mobile data di Indonesia diprediksi oleh CISCO akan meningkat sebesar 12 kali lipat pada tahun 2020. Trafik tersebut diprediksi akan terus bertambah dengan meluasnya pemanfaatan teknologi IoT secara masif sebagai salah satu tren teknologi masa depan. Pemanfaatan teknologi IoT di Indonesia digunakan untuk mendukung program smart city di berbagai kota dan diperkirakan akan berimplikasi pada kenaikan trafik. Sementara itu, Indonesia diperkirakan akan kekurangan spektrum mobile broadband sebesar 500 MHz pada tahun 2020. Implementasi teknologi IoT untuk mendukung smart city diperkirakan akan memperbesar defisiensi spektrum tersebut. Hingga saat ini belum ada penelitian yang menghitung prediksi jumlah kebutuhan spektrum untuk layanan IoT di Indonesia. Forum bersama industri elektronik di India IESA TIE IoT Forum telah melakukan prediksi jumlah kebutuhan spektrum untuk layanan IoT. Dalam rangka mendukung program pengembangan smart city di India, IESA TIE IoT Forum merekomendasikan alokasi spektrum tambahan sebesar 10 ndash; 20 MHz spesifik untuk layanan IoT. Penelitian ini bertujuan untuk menghitung prediksi kebutuhan spektrum untuk layanan IoT dengan studi kasus Jakarta Smart City menggunakan metode perhitungan yang digunakan oleh IESA TIE IoT Forum. Hasil penelitian ini adalah kebutuhan spektrum untuk layanan IoT meningkat 17,27 dalam kurun waktu 2016-2021 dengan kebutuhan spektrum sebesar 18,67 MHz untuk skenario 1 dan 19,91 MHz untuk skenario 2. Kebutuhan spektrum tersebut dapat diantisipasi oleh regulator dengan memperhatikan ketersediaan alternatif spektrum saat ini, peluang industri dan inovasi IoT dalam negeri serta kebutuhan regulasi terkait IoT seperti standarisasi perangkat, harmonisasi spektrum dan sistem keamanan data.

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In Indonesia, mobile data traffic is predicted by CISCO will increase significantly by 12 times in the period of 2015 ndash 2020. The traffic is predicted will grow continuously by widespread utilization of IoT technologies on a massive scale as one of the future technology. IoT is used to support the smart city program in various cities in Indonesia and expected to have implications in traffic growth. Meanwhile, Indonesia is expected to experience deficiency of 500 MHz spectrum for mobile broadband services in 2020. IoT implementation to support smart city is predicted to enlarge spectrum deficiency. There has been no study which calculates spectrum needs for IoT services in Indonesia. Electronics industrial collaboration forum in India IESA TIE IOT Forum has made predictions of spectrum need for IoT services. In order to support smart city in India, IESA TIE IoT forum proposed to allocate additional spectrum of 10 ndash 20 MHz specific for IoT services. This research aims to calculate spectrum need for IoT services in case of Jakarta Smart City. The results are spectrum need for IoT services increase by 17.27 in the period of 2016 ndash 2021 with the spectrum needs of 18.67 MHz for scenarios 1 and 19.91 MHz for scenarios 2. The spectrum needs should be anticipated by regulator to consider the availability alternative spectrum, opportunity and innovation IoT industry in Indonesia and the needs of regulations related to IoT for instance standardization of devices, spectrum harmonization and data security systems."

"Pesatnya kemajuan teknologi memungkinkan terjadinya proses komunikasi antar benda-benda yang ada dalam kehidupan sehari ndash; hari manusia. Fenomena ini dikenal dengan nama Internet of Things IoT. IoT dapat dipakai sebagai konsep dalam menerima data dari lingkungan melalui sensor-sensor yang ada. Sensor ndash; sensor ini terhubung melalui sebuah mikrokontroler single-board Arduino Uno. Paduan antara konsep IoT dengan platform Arduino memungkinkan terbentuknya sebuah aplikasi yang dikhususkan oleh penulis skripsi ini ke dalam sistem penerimaan data dan otomatisasi penyiraman pada tanah dan tanaman. Sistem ini dinamakan dengan sistem 'Smart Garden'. Pengguna nantinya akan dapat menjalankan aplikasi ini melalui smart device yang mereka miliki. Komunikasi data antara embedded system sensor dan pengguna dapat terjadi dengan adanya suatu media penyimpanan basis data melalui layanan web hosting dan data server. Untuk mengakses basis data tersebut dibutuhkan penulisan script PHP yang mengakses data pada basis data MySQL sesuai query yang ditentukan. Hasil data yang diterima pengguna dari server akan direpresentasikan melalui teknologi Augmented Reality AR . Keseluruhan sistem ini akan diuji cobakan dengan berbagai jenis kondisi yang meliputi sumber tenaga, access point, dan kondisi gambar acuan. Sistem ini diharapkan dapat diterapkan pada rumah penduduk dan taman. Pengembangan aplikasi berbasis Augmented Reality dilakukan agar dapat lebih melibatkan pengguna dalam pembacaan data. Melalui serangkaian ujicoba dan analisis, dapat disimpulkan bahwa keberhasilan sistem dapat dicapai apabila tegangan kerja stabil pada nilai 5 volt dan memanfaatkan wireless router sebagai access point. Deteksi gambar target pada aplikasi dapat dicapai apabila mendapatkan cahaya dengan intensitas minimal sebesar 298 Lux.

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The rapid evolution of nowadays technology allows connection between numerous things in human daily life. This phenomenon is called Internet of Things IoT . IoT can be used as a concept for series of data collecting through available sensors. These sensors connect through a single board microcontroller called Arduino Uno. A combination of IoT concepts and Arduino platform enables applications to be created. The writer focuses on data sensing and device automation application called ldquo Smart Garden rdquo . Users can run this application through their smart devices or mobile phones. Data communication between embedded system sensors and users happened because of web hosting and data server services. PHP scripts required to access MySQL databases with suitable queries called.

Data results that users received will be represented through Augmented Reality technology. Throughout of this system will be tested ini different kinds of condition considering power sources, access point, and target image conditions. This system is expected to be installed on houses and gardens. Application development through Augmented Reality was managed to motivates user's interactions. It can be concluded from numbers of testing and analysis that the system's success is determined by its operating voltage, which is constant 5 volts, and usage of wireless router as its access point. Application's target image detection can only be achived with minimum 298 Lux of light intensity."

"Internet of Things (IoT) diprediksi akan menjadi masa depan bisnis digital di Indonesia. Pangsa pasar IoT diperkirakan akan berkembang pesat seiring dengan bertambahnya perangkat sensor yang terpasang. Narrowband IoT (NB-IoT) yang dispesifikasikan 3GPP dengan berbasis teknologi Long Term Evolution (LTE) di-deploy pada network seluler exisiting, diprediksi akan menjadi kontributor utama berkembangnya IoT seluler. Dalam studi ini dilakukan perencanaan network NB-IoT dengan peruntukan penggunaan utilitas smart meter di area Jakarta. Perencanaan dilakukan sesuai target KPI untuk coverage dan kualitas jaringan dengan hasil diperlukannya 111 Evolved Node B (eNodeB). Dari sisi kapasitas, jumlah eNodeB tersebut sudah mencukupi prediksi kebutuhan untuk device listrik, air, dan gas sampai dengan tahun 2029. Hal ini terlihat dari utilisasi network yang masih mencapai 7.39% berdasar perhitungan dari simulasi troughput, sedangkan dari perhitungan berdasar kapasitas rekomendasi 3GPP diperoleh utilisasi 27.57%. Selain itu juga dilakukan tinjauan tekno ekonomi secara ringkas, baik dari sisi sisi operator seluler sebagai penyedia jaringan, maupun perusahaan listrik sebagai pengguna jasa jaringan NB-IoT tersebut dengan hasil nilai NPV yang positif.

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The Internet of Things (IoT) is predicted to become the future of digital business in Indonesia. The IoT market share is expected to grow rapidly as more sensor devices are installed. Specified Narrowband IoT (NB-IoT) 3GPP with Long Term Evolution (LTE) technology-based deployed on exisiting cellular networks,it is predicted to be the main contributor to the development of cellular IoT. In this study, NB-IoT network planning was carried out with the use of smart meters utilities in the Jakarta area. Planning is carried out according to the KPI target for network coverage and quality with the results of requiring 111 Evolved Node B (eNodeB). In terms of capacity, the number of eNodeBs is sufficient to cover estimated needs for electricity, water and gas devices up to 2029. This can be seen from network utilization which still reaches 7.39% based on calculations from throughput simulation, while from calculations based on 3GPP recommendation capacity obtained utilization of 27.57%. In addition, a brief techno-economic review was carried out, both from the side of cellular operators as network providers, as well as electricity companies as users of the NB-IoT network services with positive NPV values."

"AEC (Asean Economic Community) 2015 menimbulkan beberapa tantangan dalam industri logistik. Oleh karenanya diperlukan peranan dan penerapan layanan IoT (Internet of Things) untuk meningkatkan daya saing, yaitu berupa implementasi layanan smart logistic transport. Tesis ini mengusulkan model implementasi smart logistic transport di Indonesia yang berfokus pada sistem cold supply chain.Tesis ini bertujuan melakukan analisis ekonomi teknik dalam bentuk analisis komparatif layanan smart logistic transport terkait pemilihan teknologi jaringan 2G/3G/4G dan fitur MDVR yang dibedakan menjadi Skenario 1-2-3. Sedangkan pengembangan model implementasi didapatkan setelah melakukan wawancara dengan application customers,technological vendors,regulator & network provider.Berdasarkan trial implementasi smart logistic transport bulan September – Oktober 2015 dengan analisis ekonomi teknik, didapatkan layanan not feasible hanya pada skenario 3 untuk unit "CD6", di jaringan 4G. Hal ini terkait masih mahal dan belum banyak tersedianya modul m2m gateway dan MDVR teknologi jaringan 4G. Sehingga diperlukan jumlah minimum truk "CD6" dan "Fuso" pada tiap skenario agar implementasi menjadi feasible. Untuk model implementasi layanan terdiri atas 11 fitur, yaitu 2 fitur basic dan 9 fitur advanced. Dikarenakan bisnis proses yang dinamis maka konsumen membutuhkan fitur advanced yang lebih spesifik di masa akan datang. Dengan melihat peluang tersebut maka local content developer dapat menciptakan dan mengembangkan fitur yang relevan.

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Asean Economic Community 2015 has been creating more challenges in logistics industries in Indonesia. The implementation of IoT in logistic services is needed for increasing competitiveness leading to the establishment of so-called "smart logistic transport". We propose the implementation model of the Indonesian Smart Logistic Transport, by focusing on cold supply chain system.

We have conducted an engineering economic analysis of the smart logistics transport, in relation with the mobile network platform of 2G, 3G, 4G. Development of the implementation model is completed by conducting in-depth interviews with the application customers, technological vendors, regulator and network provider.

Based on implementation trial in September-October 2015 and engineering economic analysis, we have found that Smart Logistic Transport is not feasible only on scenario 3 for "CD6" at 4G network. Such condition is caused by the expensive price of 4G’s M2M gateway module and MDVR. Therefore, it requires the minimum amount of implemented truck to make implementation feasible. Our proposed model has signified 11 features, i.e. 2 basic feature and 9 advanced features, formulating the Indonesian smart logistics transport system. Due to the dynamic business process, customers may need specific advanced features in the future. By taking such opportunity, Indonesian local content developer can work to develop any relevant application features, which is needed by the logistic companies in the near future."

"AEC (Asean Economic Community) 2015 menimbulkan beberapa tantangan dalam industri logistik. Oleh karenanya diperlukan peranan dan penerapan layanan IoT (Internet of Things) untuk meningkatkan daya saing, yaitu berupa implementasi layanan smart logistic transport. Tesis ini mengusulkan model implementasi smart logistic transport di Indonesia yang berfokus pada sistem cold supply chain. Tesis ini bertujuan melakukan analisis ekonomi teknik dalam bentuk analisiskomparatif layanan smart logistic transport terkait pemilihan teknologi jaringan 2G/3G/4G dan fitur MDVR yang dibedakan menjadi Skenario 1-2-3. Sedangkan pengembangan model implementasi didapatkan setelah melakukan wawancaradengan application customers,technological vendors,regulator &network provider. Berdasarkan trial implementasi smart logistic transport bulan September-Oktober 2015 dengan analisis ekonomi teknik, didapatkan layanan not feasiblehanya pada skenario 3 untuk unit-CD6, di jaringan 4G. Hal ini terkait masih mahal dan belum banyak tersedianya modul m2m gateway dan MDVR teknologi jaringan 4G. Sehingga diperlukan jumlah minimum truk CD6 dan Fuso pada tiap skenario agar implementasi menjadi feasible. Untuk model implementasi layanan terdiri atas 11 fitur, yaitu 2 fitur basic dan 9 fitur advanced. Dikarenakan bisnis proses yang dinamis maka konsumen membutuhkan fitur advanced yang lebihspesifik di masa akan datang. Dengan melihat peluang tersebut maka local content developer dapat menciptakan dan mengembangkan fitur yang relevan.

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Asean Economic Community 2015 has been creating more challenges in logistics industries in Indonesia. The implementation of IoT in logistic services is needed for increasing competitiveness leading to the establishment of so-called smart logistic transport. We propose the implementation model of the Indonesian Smart Logistic Transport, by focusing on cold supply chain system. We have conducted an engineering economic analysis of the smart logistics transport, in relation with the mobile network platform of 2G, 3G, 4G. Development of the implementation model is completed by conducting in-depth interviews with

the application customers, technological vendors, regulator and network provider. Based on implementation trial in September-October 2015 and engineering economic analysis, we have found that Smart Logistic Transport is not feasible only on scenario 3 for CD6 at 4G network. Such condition is caused by the expensive price of 4G's M2M gateway module and MDVR. Therefore, it requires the minimum amount of implemented truck to make implementation feasible. Our proposed model has signified 11 features, i.e. 2 basic feature and 9 advanced features, formulating the Indonesian smart logistics transport system. Due to the dynamic business process, customers may need specific advanced features in the future. By taking such opportunity, Indonesian local content developer can work to develop any relevant application features, which is needed by the logistic companies in the near future."